Chemistry Journal of Moldova

The Institute of Chemistry of the Academy of Sciences of Moldova State University of Moldova Academy of Sciences of Moldova
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Institutul de dezvoltare a societatii informationale FP7

2016 Volume 11, no.1

COVER
 
INDEXING
 
EDITORIAL_BOARD
 
ISSUE CONTENTS LIST WITH GRAPHICAL ABSTRACTS
 
PREFACE
 
NEWS AND EVENTS
 
INSTRUCTIONS FOR AUTHORS
Author(s):

Nicolay Davidenko, Irina Davidenko, Oleg Korotchenkov, Victor Kravchenko, Elena Mokrinskaya, Andrey Podolian, Sergey Studzinsky, Larisa Tonkopiyeva


Field: Physical chemistry and chemical physics
Type: Research paper
Issue: 2016 Volume 11, no.1
Pages: 86-90
Keywords: organic heterostructures, MEH-PPV, metal complexes, photovoltaic effect.
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DOI: dx.doi.org/10.19261/cjm.2016.11(1).11

Graphical Abstract: Planar organic heterostructures were prepared using poly-N- epoxypropylcarbazole films and poly[2-methoxy-5-(2’-ethylhexyloxy)-1,4-phenylenevinylene] by the method of successive deposition adding 2,3,9,10,16,17,23,24-zinc octabutylphthalocyanine. Photoelectric, photodielectric and photovoltaic properties of the heterostructures were studied. 




The article is Open Access by CC-BY 4.0 License

Cite this article as:
N. Davidenko, I. Davidenko, O. Korotchenkov, V. Kravchenko,  E. Mokrinskaya, A. Podolian, S. Studzinsky, L. Tonkopiyeva. Photoelectric Properties of Heterostructures Based on PEPC and MEH-PPV Films Doped with Zinc Octabutylphthalocyanine. Chemistry Journal of Moldova, 2016, 11(1), pp. 86-90. DOI: dx.doi.org/10.19261/cjm.2016.11(1).11

Article Source: Photoelectric Properties of Heterostructures Based on PEPC and MEH-PPV Films Doped with Zinc Octabutylphthalocyanine

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Downloads: 39

Author(s):

Daryna Haliarnik, Oleg Petuhov, Olga Bakalinska, Tudor Lupascu, Mykola Kartel


Field: Physical chemistry and chemical physics
Type: Research paper
Issue: 2016 Volume 11, no.1
Pages: 91-96
Keywords: carbon nanomaterials, activated carbon, benzoyl peroxide, catalytic activity, Michaelis constant.
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DOI: dx.doi.org/10.19261/cjm.2016.11(1).12

Graphical Abstract: The catalytic activities of nanoporous carbon materials, their modified forms and enzyme catalase was determined by calculation of Michaelis constants according to the kinetics of substrate decomposition. It is found that the catalytic activity of studied samples correlated with surface basicity and presence of quaternary nitrogen groups in structure.


The article is Open Access by CC-BY 4.0 License

Cite this article as:
D. Haliarnik, O. Petuhov, O. Bakalinska, T. Lupascu, M. Kartel. Benzoyl Peroxide Decomposition by Nitrogen-Containing Carbon Nanomaterials. Chemistry Journal of Moldova, 2016, 11(1), pp. 91-96. DOI: dx.doi.org/10.19261/cjm.2016.11(1).12

Article Source: Benzoyl Peroxide Decomposition by Nitrogen-Containing Carbon Nanomaterials

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Downloads: 40

Author(s):

Alexei Baerle, Olga Dimova, Irina Urumoglova, Pavel Tatarov, Larisa Zadorojnai


Field: Supramolecular chemistry
Type: Research paper
Issue: 2016 Volume 11, no.1
Pages: 97-105
Keywords: protein-polysaccharides, colloids, electrokinetic potential, phase diagram, microcapsules.
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DOI: dx.doi.org/10.19261/cjm.2016.11(1).13

Graphical Abstract: Phase state and the charge of colloidal particles in the gelatine-polyuronate system were studied. A method for comparative evaluation of molecular weight of colloids by means of viscosimetric measurements and electrophoresis was developed. It is shown that the Diagram {Phase state = f (composition, pH)} contains six well-defined regions. The diagram explains and predicts the behaviour of protein-polysaccharide colloids, which are included in beverages or forms the shells of oil-containing microcapsules.




The article is Open Access by CC-BY 4.0 License

Cite this article as:
A. Baerle, O. Dimova, I. Urumoglova, P. Tatarov, L. Zadorojnai. Phase Diagram of Gelatine-Polyuronate Colloids: Its Application For Microencapsulation and not Only. Chemistry Journal of Moldova, 2016, 11(1), pp. 97-105. DOI: dx.doi.org/10.19261/cjm.2016.11(1).13

Article Source: Phase Diagram of Gelatine-Polyuronate Colloids: Its Application For Microencapsulation and not Only.

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Downloads: 58
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